LAUSR

Abstract Dual modification of corn starch was carried out by combining acid hydrolysis (AH, 6, 12, 24 h) and heat-moisture treatment (HMT, 15, 30, 60 min) in different sequences (AH-HMT and HMT-AH). X-ray diffractometry, differential scanning calorimetry, polarized light microscopy, and rheometer were used to characterize the differences in molecular structure and physicochemical properties resulting from the sequences. Both AH-HMT and HMT-AH sequences increased the metastability of the starch granules. Starch hydrolyzed by AH for 12 h and then subjected to HMT for 15 min (AH 12 -HMT 15 ) has onset, peak, and conclusion gelatinization temperatures that were 4.2, 3.9 and 6.4 °C higher than those of HMT 15 -AH 12 one, respectively. The relative crystallinity of HMT 15, 30 -AH decreased as AH time increased; however, it increased in the HMT 60 -AH sample. Besides, all the temperature ranges of gelatinization of AH-HMT 15, 30 were higher than those of HMT 15, 30 -AH, but lower in the case of AH-HMT 60 when compared to HMT 60 -AH. This indicates that the perfection effect became more prominent over destruction on HMT 60 for AH-HMT samples. The AH-HMT sequence also resulted into lower relative crystallinity, swelling power, solubility, gelatinization enthalpy, and pasting viscosity than in those samples produced using HMT-AH sequence.